import string import os import isys import iutil class LiloConfigFile: def __repr__ (self, tab = 0): s = "" for n in self.order: if (tab): s = s + '\t' if n[0] == '#': s = s + n[1:] else: s = s + n if self.items[n]: s = s + "=" + self.items[n] s = s + '\n' for image in self.images: (fsType, name, cl) = image s = s + "\n%s=%s\n" % (fsType, name) s = s + cl.__repr__(1) return s def addEntry(self, item, val = None, replace = 1): if not self.items.has_key(item): self.order.append(item) elif not replace: return if (val): self.items[item] = str(val) else: self.items[item] = None def getEntry(self, item): return self.items[item] def getImage(self, name): for (fsType, label, config) in self.images: if label == name: return (fsType, config) raise IndexError, "unknown image %s" % (name,) def addImage (self, fsType, name, config): self.images.append((fsType, name, config)) def delImage (self, name): for entry in self.images: fsType, label, config = entry if label == name: self.images.remove (entry) def listImages (self): l = [] for (fsType, label, config) in self.images: l.append(label) return l def write(self, file, perms = 0644): f = open(file, "w") f.write(self.__repr__()) f.close() os.chmod(file, perms) def read (self, file): f = open(file, "r") image = None for l in f.readlines(): l = l[:-1] orig = l while (l and (l[0] == ' ' or l[0] == '\t')): l = l[1:] if (not l or l[0] == '#'): self.order.append('#' + orig) continue fields = string.split(l, '=', 1) if (len(fields) == 2): if (fields[0] == "image"): image = LiloConfigFile() self.addImage(fields[0], fields[1], image) args = None elif (fields[0] == "other"): image = LiloConfigFile() self.addImage(fields[0], fields[1], image) args = None else: args = (fields[0], fields[1]) else: args = (l,) if (args and image): apply(image.addEntry, args) elif args: apply(self.addEntry, args) f.close() def __init__(self): self.order = [] self.images = [] # more (fsType, name, LiloConfigFile) pair self.items = {} class LiloConfiguration: def allowLiloLocationConfig(self, fstab): bootDevice = fstab.getBootDevice() if bootDevice[0:2] == "md": self.setDevice(("raid", bootDevice)) return None return 1 def setLiloImages(self, images): self.liloImages = images def getLiloImages(self, fstab): (drives, raid) = fstab.raidList() # rearrange the fstab so it's indexed by device mountsByDev = {} for (mntpoint, device, fsystem, doFormat, size) in \ fstab.mountList(): mountsByDev[device] = mntpoint for (mntpoint, device, fstype, raidType, start, size, makeup) in raid: mountsByDev[device] = mntpoint drives.append(device, "", 2, 0, 0) for (device, mntpoint, fsystem, makeup) in fstab.existingRaidList(): mountsByDev[device] = mntpoint drives.append(device, "", 2, 0, 0) oldImages = {} for dev in self.liloImages.keys(): oldImages[dev] = self.liloImages[dev] self.liloImages = {} foundDos = 0 for (dev, devName, fsType, start, size) in drives: # ext2 and raid partitions get listed if they're / -- we do # not allow non-mounted partitions to be booted anymore as # modules are so unlikely to work out as to be not worth # worrying about # # there is a good chance we should configure them as chain # loadable, but we don't # only list dos and ext2 partitions if fsType != 1 and fsType != 2: continue if (mountsByDev.has_key(dev)): if mountsByDev[dev] == '/': if oldImages.has_key(dev): self.liloImages[dev] = oldImages[dev] else: self.liloImages[dev] = ("linux", 2) if fsType == 1: if foundDos: continue foundDos = 1 isys.makeDevInode(dev, '/tmp/' + dev) bootable = isys.checkBoot('/tmp/' + dev) os.unlink('/tmp/' + dev) if bootable: if oldImages.has_key(dev): self.liloImages[dev] = oldImages[dev] else: self.liloImages[dev] = ("dos", fsType) # if there is no default image (self.default is None, or invalid) # set the default image to the liunx partition if self.default: for (label, fsType) in self.liloImages.values(): if label == self.default: break if label != self.default: self.default = None if not self.default: for (label, fsType) in self.liloImages.values(): if fsType == 2: self.default = label break return (self.liloImages, self.default) def makeInitrd (self, kernelTag, instRoot): initrd = "/boot/initrd%s.img" % (kernelTag, ) if not self.initrdsMade.has_key(initrd): iutil.execWithRedirect("/sbin/mkinitrd", [ "/sbin/mkinitrd", "--ifneeded", initrd, kernelTag[1:] ], stdout = None, stderr = None, searchPath = 1, root = instRoot) self.initrdsMade[kernelTag] = 1 return initrd def install(self, fstab, instRoot, hdList, upgrade): # If self.liloDevice is None, skipping lilo doesn't work if not self.liloDevice: return # If the root partition is on a loopback device, lilo won't work! if fstab.rootOnLoop(): return if not self.liloImages: (images, default) = self.getLiloImages(fstab) self.setLiloImages(images) # on upgrade read in the lilo config file lilo = LiloConfigFile () perms = 0644 if os.access (instRoot + '/etc/lilo.conf', os.R_OK): perms = os.stat(instRoot + '/etc/lilo.conf')[0] & 0777 #lilo.read (instRoot + '/etc/lilo.conf') os.rename(instRoot + '/etc/lilo.conf', instRoot + '/etc/lilo.conf.rpmsave') # Remove any invalid entries that are in the file; we probably # just removed those kernels. While we're here, build an index # to the already-configured (and valid) lilo images by the lilo # label, as we can normally only get them by filename which isn't # easily done. imagesByLabel = {} for image in lilo.listImages(): (fsType, sl) = lilo.getImage(image) if fsType == "other": continue if not os.access(instRoot + image, os.R_OK): lilo.delImage(image) else: imagesByLabel[sl.getEntry('label')] = image bootpart = fstab.getBootDevice() boothd = fstab.getMbrDevice() if (self.liloDevice == "mbr"): liloTarget = boothd elif (type(self.liloDevice) == type((1,)) and self.liloDevice[0] == "raid"): liloTarget = self.liloDevice[1] else: liloTarget = bootpart lilo.addEntry("boot", '/dev/' + liloTarget, replace = 0) lilo.addEntry("map", "/boot/map", replace = 0) lilo.addEntry("install", "/boot/boot.b", replace = 0) lilo.addEntry("prompt", replace = 0) lilo.addEntry("timeout", "50", replace = 0) # XXX edd overrides linear, lba32/linear are mutually exclusive if self.edd: lilo.addEntry("lba32", replace = 0) elif self.liloLinear: lilo.addEntry("linear", replace = 0) smpInstalled = (hdList.has_key('kernel-smp') and hdList['kernel-smp'].selected) # This is a bit odd, but old versions of Red Hat could install # SMP kernels on UP systems, but (properly) configure the UP version. # We don't want to undo that, but we do want folks using this install # to be able to override the kernel to use during installs. This rule # seems to nail this. if (upgrade and not isys.smpAvailable()): smpInstalled = 0 rootDev = fstab.getRootDevice () if rootDev: # strip off the filesystem; we don't need it rootDev = rootDev[0] else: raise RuntimeError, "Installing lilo, but there is no root device" kernelList = [] otherList = [] main = self.default for (drive, (label, liloType)) in self.liloImages.items (): if (drive == rootDev) and label: main = label elif label: otherList.append (label, "/dev/" + drive) lilo.addEntry("default", self.default) label = main if (smpInstalled): kernelList.append((main, hdList['kernel-smp'], "smp")) label = main + "-up" kernelList.append((label, hdList['kernel'], "")) for (label, kernel, tag) in kernelList: if imagesByLabel.has_key(label): (fsType, sl) = lilo.getImage(imagesByLabel[label]) lilo.delImage(imagesByLabel[label]) else: sl = LiloConfigFile() kernelTag = "-%s-%s%s" % (kernel['version'], kernel['release'], tag) kernelFile = "/boot/vmlinuz" + kernelTag initrd = self.makeInitrd (kernelTag, instRoot) sl.addEntry("label", label) if os.access (instRoot + initrd, os.R_OK): sl.addEntry("initrd", initrd) sl.addEntry("read-only") sl.addEntry("root", '/dev/' + rootDev) if self.liloAppend: sl.addEntry('append', '"%s"' % (self.liloAppend,)) lilo.addImage ("image", kernelFile, sl) for (label, device) in otherList: try: (fsType, sl) = lilo.getImage(device) lilo.delImage(device) except IndexError: sl = LiloConfigFile() sl.addEntry("label", label) lilo.addImage ("other", device, sl) lilo.write(instRoot + "/etc/lilo.conf", perms = perms) iutil.execWithRedirect(instRoot + '/sbin/lilo' , [ "lilo", "-r", instRoot ], stdout = None) def setDevice(self, device): if (type(device) == type((1,))): self.liloDevice = device elif device != "mbr" and device != "partition" and device: raise ValueError, "device must be raid, mbr, partition, or None" self.liloDevice = device def setLinear(self, linear): self.liloLinear = linear def setAppend(self, append): self.liloAppend = append def setDefault(self, default): for (label, fsType) in self.liloImages.values(): if label == default: self.default = default return raise IndexError, "unknown lilo label %s" % (default,) def getLinear(self): return self.liloLinear def getDevice(self): return self.liloDevice def getAppend(self): return self.liloAppend def __init__(self): self.liloImages = {} self.liloDevice = 'mbr' self.liloLinear = 1 self.liloAppend = None self.default = None self.initrdsMade = {} # XXX only i386 supports edd, nothing else should # instantiate this class if iutil.getArch() == "i386": import edd self.edd = edd.detect() else: self.edd = 0 if __name__ == "__main__": config = LiloConfigFile () config.read ('/etc/lilo.conf') print config print "image list", config.listImages() config.delImage ('/boot/vmlinuz-2.2.5-15') print '----------------------------------' config = LiloConfigFile () config.read ('/etc/lilo.conf') print config print '----------------------------------' print config.getImage('/boot/vmlinuz-2.2.5-15')